Abstract

Campomanesia guazumifolia is a native tree that produces fruit that can be consumed fresh or used by industry (Donadio et al., 2002). In February 2022, in the experimental area of the Universidade Tecnológica Federal do Paraná - Brazil, disease was observed in 22 trees, with 50% to 80% severity in crown leaves. Symptoms were small, irregular, or circular-shaped, dark-brown lesions with yellow halos (Figure S1). As the disease progressed, the lesions increased in size, without distinction between mature and young tissues, causing complete leaf wilting. Twenty symptomatic leaves from 11 trees grown in the same orchard line were collected. For fungal isolation, the leaf surfaces were disinfected with 0.5% NaOCl solution for 1 min, rinsed in sterile distilled water, and dried on sterile filter paper. Five fragments of diseased leaf tissue were placed on a potato dextrose agar medium. The morphological characteristics of the colony, such as filamentous mycelium and golden yellow on the upper part, with the presence of circular to ovoid and multicellular conidia (mean 21.00 µm x 24.45 µm, n = 30) of the nine isolates, coincided with the description of the fungus of the genus Epicoccum (Valenzuela-Lopez et al., 2018). Further identification of one of these nine isolates was confirmed by amplifying and sequencing three loci (ITS, β-tubulin, and RPB2) using the ITS1/ITS4, Bt2a/Bt2b, and 5F2/7cR primer pairs, respectively (White et al., 1990, Glass and Donaldson, 1995, O'Donnell et al., 2007). A single representative isolate (Cgen01) was analyzed and submitted to GenBank (OR020968, OR079879, and OR079878). The Bayesian Inference was used to reconstruct the phylogenetic trees (Figure S2), starting from random trees for 5,000,000 generations, using MrBayes v. 3.2.1 (Ronquist et al., 2012). The isolate clustered together with the isolate of Epicoccum nigrum (Chen et al., 2017) with a high posterior probability (0.98). For the pathogenicity tests, four young, healthy branches containing 20 leaves were spray-inoculated with 1.5 mL of conidia suspension of Cgen01 (106 conidia mL-1), covered with perforated transparent plastic bags, and moistened with distilled water in the orchard. The air temperature ranged from 14ºC to 25ºC. Sterile distilled water was used as a control. Three replicates (pathogen and control) on different trees were evaluated. After five days, the fungus was re-isolated from the symptomatic lesion, showing morphological characteristics similar to those of Cgen01. Control branches did not show fungal growth. The inoculation test was conducted twice and similar symptoms were observed. This is the first report of leaf spots caused by E. nigrum on C. guazumifolia in Brazil. E. nigrum, an endophytic fungus described as a mycoparasite, showed phytopathogenic behavior in this study, causing spots and loss of leaves in C. guazumifolia, drastically reducing the production of photoassimilates and affecting the quality of the fruits.

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